Valeria Troiano scite author profile

The identification of the key role of the eukaryotic 26S proteasome in regulated intracellular proteolysis and its importance as a target in many pathological conditions wherein the proteasomal activity is defective (e.g., malignancies, autoimmune diseases, neurodegenerative diseases, etc.) prompted several research groups to the development of specific inhibitors of this multicatalytic complex with the aim of obtaining valid drug candidates. In regard to the anticancer therapy, the peptide boronate bortezomib (Velcade®) represents the first molecule approved by FDA for the treatment of multiple myeloma in 2003 and mantle cell lymphoma in 2006. Since then, a plethora of molecules targeting the proteasome have been identified as potential anticancer agents and a few of them reached clinical trials or are already in the market (i.e., carfilzomib; Kyprolis®). In most cases, the design of new proteasome inhibitors (PIs) takes into account a proven peptide or pseudopeptide motif as a base structure and places other chemical entities throughout the peptide skeleton in such a way to create an efficacious network of interactions within the catalytic sites. The purpose of this review is to provide an in-depth look at the current state of the research in the field of peptide-based PIs, specifically those ones that might find an application as anticancer agents.

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Development of peptidomimetic boronates as proteasome inhibitors

Micale

Ettari

Lavecchia

et al. 2013

European Journal of Medicinal Chemistry

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Identification of a new series of amides as non-covalent proteasome inhibitors

Scarbaci

Troiano

Micale

et al. 2014

European Journal of Medicinal Chemistry

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Optimization of peptidomimetic boronates bearing a P3 bicyclic scaffold as proteasome inhibitors

Troiano

Scarbaci

Ettari

et al. 2014

European Journal of Medicinal Chemistry

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Development of Novel Selective Peptidomimetics Containing a Boronic Acid Moiety, Targeting the 20S Proteasome as Anticancer Agents

et al. 2014

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This paper describes the design, synthesis, and biological evaluation of peptidomimetic boronates as inhibitors of the 20S proteasome, a validated target in the treatment of multiple myeloma. The synthesized compounds showed a good inhibitory profile against the ChT-L activity of 20S proteasome. Compounds bearing a β-alanine residue at the P2 position were the most active, that is, 3-ethylphenylamino and 4-methoxyphenylamino (R)-1-{3-[4-(substituted)-2-oxopyridin-1(2H)-yl]propanamido}-3-methylbutylboronic acids (3 c and 3 d, respectively), and these derivatives showed inhibition constants (Ki ) of 17 and 20 nM, respectively. In addition, they co-inhibited post glutamyl peptide hydrolase activity (3 c, Ki=2.57 μM; 3 d, Ki=3.81 μM). No inhibition was recorded against the bovine pancreatic α-chymotrypsin, which thus confirms the selectivity towards the target enzyme. Docking studies of 3 c and related inhibitors into the yeast proteasome revealed the structural basis for specificity. The evaluation of growth inhibitory effects against 60 human tumor cell lines was performed at the US National Cancer Institute. Among the selected compounds, 3 c showed 50% growth inhibition (GI50) values at the sub-micromolar level on all cell lines.

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Valeria Troiano

Peptide‐Based Proteasome Inhibitors in Anticancer Drug Design

Development of peptidomimetic boronates as proteasome inhibitors

Identification of a new series of amides as non-covalent proteasome inhibitors

Optimization of peptidomimetic boronates bearing a P3 bicyclic scaffold as proteasome inhibitors

Development of Novel Selective Peptidomimetics Containing a Boronic Acid Moiety, Targeting the 20S Proteasome as Anticancer Agents

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